Single Hole Dynamics in a 2D quantum antiferromagnet in a stripe-ordered by fluctuating background
POSTER
Abstract
We study the dynamics of a hole in a $2D$ lattice in a stripe-ordered background. Starting from $t-J$ Hamiltonian, we treat the $J$-term using the linear spin wave theory and we linearize the hole hopping in terms of spin-deviation operators. We find the dispersion relation of the eight different spin-wave modes and we solve the Dyson's equation within the non-crossing approximation for the eight hole green's functions. We investigate the hole energy bands, the spectral functions and the quasi-particle peak broadening.
Authors
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Satyaki Kar
Department of Physics, FSU, Department of Physics, FSU \& MARTECH
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Efstratios Manousakis
Department of Physics and MARTECH, Florida State University, Tallahassee, Florida, 32306, USA and Department of Physics, University of Athens, Greece, Florida State University, MARTECH, Department of Physics, FSU \& MARTECH, MARTECH \& Department of Physics, Florida State University and Department of Physics, University of Athens, Greece, Department of Physics, FSU \& MARTECH, Department of Physics, University of Athens, Greece